In this paper, a radix 16/8/4/2 divider is proposed which uses a variety of techniques, including operand scaling, table partitioning, and table folding, to ...
In this paper, a radix 16/8/4/2 divider is proposed which uses a variety of techniques, including operand scaling, table partitioning, and table folding, to ...
In this paper, we employ a high-radix, 16/8/4/2, division method to reduce the re- quired cycles for the division, while keep the hardware complexity in control ...
A radix-16/8/4/2 divisor is proposed, which uses a variety of techniques, including operand scaling, table partitioning, and, particularly, table sharing, ...
We use estimation-based approach for a hypothetical device having a 32-bit MlPS-extension processor plus on-chip configurable logic, yielding energy savings of ...
In this paper, a radix-16/8/4/2 divisor is proposed, which uses a variety of techniques, including operand scaling, table partitioning, and, particularly, table ...
Design of a cycle-efficient 64b/32b integer divider using a table-sharing method · Computer Science, Engineering. ICECS 2001. 8th IEEE International Conference ...
Implementation and Design of a Cycle-Efficient 64b/32b Integer Divider Using a Table-Sharing Method / 使用表格分享設計混合式高基底64b/32b整數除法器設計與實作 ...
Aug 9, 2024 · For the sake of enhancing throughput rate, the proposed divider uses a mixed radix-8/4/2 division instead of the traditional radix-2 division.
Design of a Cycle-Efficient 64-B/32-B Integer Divisor Using a Table-Sharing Algorithm published in IEEE Transactions on Very Large Scale Integration.
Missing: 64b/ 32b divider